Results 181 to 190 of about 705 (201)
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A biodynamic multibody system. OHAM solution
AIP Conference Proceedings, 2022Andreea Nicoara +3 more
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Indian Journal of Physics, 2019
An examination of simultaneous effects of Hall current and heat radiation on three-dimensional micropolar CNT-based nanofluid flow between two rotating sheets is carried out. The upper sheet is considered to be porous, and the fluid flow is induced due to stretching of the lower sheet.
A. Kumar +3 more
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An examination of simultaneous effects of Hall current and heat radiation on three-dimensional micropolar CNT-based nanofluid flow between two rotating sheets is carried out. The upper sheet is considered to be porous, and the fluid flow is induced due to stretching of the lower sheet.
A. Kumar +3 more
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Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2019
This paper examines the concentric n-layer flows for incompressible third-grade fluids through a horizontal cylindrical pipe. Such flows of multilayer fluids have a wide variety of applications in petroleum and chemical industries. The approximate solutions for velocity fields of multilayer flows are presented by the application of optimal homotopy ...
S. Iqbal, I. Siddique, A. M. Siddiqui
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This paper examines the concentric n-layer flows for incompressible third-grade fluids through a horizontal cylindrical pipe. Such flows of multilayer fluids have a wide variety of applications in petroleum and chemical industries. The approximate solutions for velocity fields of multilayer flows are presented by the application of optimal homotopy ...
S. Iqbal, I. Siddique, A. M. Siddiqui
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AIP Conference Proceedings, 2014
In this paper, free convection of non-Newtonian nanofluids over an impermeable vertical flat plate in a porous medium is studied. The medium contains both nanoparticles and gyrotactic microorganisms. The vertical plate is deemed to have prescribed temperature, nanoparticle concentration and density of motile microorganisms.
Fazle Mabood +2 more
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In this paper, free convection of non-Newtonian nanofluids over an impermeable vertical flat plate in a porous medium is studied. The medium contains both nanoparticles and gyrotactic microorganisms. The vertical plate is deemed to have prescribed temperature, nanoparticle concentration and density of motile microorganisms.
Fazle Mabood +2 more
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2020
The intention behind carrying out this research problem is to understand the nature of two-dimensional hydromagnetic flow of an electro-conductive and thermally radiating viscoelastic fluid past a non-linear stretching surface, considering viscous and Joule dissipation.
A. Bhattacharyya, G. S. Seth, R. Kumar
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The intention behind carrying out this research problem is to understand the nature of two-dimensional hydromagnetic flow of an electro-conductive and thermally radiating viscoelastic fluid past a non-linear stretching surface, considering viscous and Joule dissipation.
A. Bhattacharyya, G. S. Seth, R. Kumar
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UNEC journal of engineering and applied sciences
This research focuses on the fluid dynamics and heat transfer characteristics of the Williamson fluid over a permeable stretched cylinder, accounting for heat generation effects. Incorporating elements such as viscous dissipation, mixed convection, Joule heating, entropy generation, and magnetic field presence, the investigation utilizes the Optimal ...
S Abbas, E Rafique, Muhammad Sohail
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This research focuses on the fluid dynamics and heat transfer characteristics of the Williamson fluid over a permeable stretched cylinder, accounting for heat generation effects. Incorporating elements such as viscous dissipation, mixed convection, Joule heating, entropy generation, and magnetic field presence, the investigation utilizes the Optimal ...
S Abbas, E Rafique, Muhammad Sohail
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International Journal of Modern Physics B
This study investigates the unsteady, incompressible, electrically conducting nanofluid flow between two parallel disks subjected to simultaneous radial stretching and squeezing, with emphasis on comparing Newtonian (viscous) and non-Newtonian (second-grade) nanofluids.
Khursheed Muhammad +4 more
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This study investigates the unsteady, incompressible, electrically conducting nanofluid flow between two parallel disks subjected to simultaneous radial stretching and squeezing, with emphasis on comparing Newtonian (viscous) and non-Newtonian (second-grade) nanofluids.
Khursheed Muhammad +4 more
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Modern Physics Letters B
This paper investigates the stagnation point flow of a second-grade nanomaterial, considering nanofluid effects via thermophoresis and Brownian motion. The study addresses convective heat and mass transfer conditions within the flow induced by a stretching cylinder. The transformed systems are solved using the optimal homotopy solutions (OHAM) method,
Khursheed Muhammad +2 more
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This paper investigates the stagnation point flow of a second-grade nanomaterial, considering nanofluid effects via thermophoresis and Brownian motion. The study addresses convective heat and mass transfer conditions within the flow induced by a stretching cylinder. The transformed systems are solved using the optimal homotopy solutions (OHAM) method,
Khursheed Muhammad +2 more
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Babylonian Journal of Mathematics
The focus of this work is on the flow of a spinning Powell-Eyring nanofluid in the boundary layer in three dimensions using magnetohydrodynamics (MHD). The research simulates mass transfer processes and heat transfer processes using non-Fick's mass flux theory and non-Fourier heat flux theory, respectively.
Esha Rafique +2 more
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The focus of this work is on the flow of a spinning Powell-Eyring nanofluid in the boundary layer in three dimensions using magnetohydrodynamics (MHD). The research simulates mass transfer processes and heat transfer processes using non-Fick's mass flux theory and non-Fourier heat flux theory, respectively.
Esha Rafique +2 more
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